# Copyright 1999-2018 Gentoo Foundation
# Distributed under the terms of the GNU General Public License v2
# NOTE: The comments in this file are for instruction and documentation.
# They're not meant to appear with your final, production ebuild. Please
# remember to remove them before submitting or committing your ebuild. That
# doesn't mean you can't add your own comments though.
# The EAPI variable tells the ebuild format in use.
# It is suggested that you use the latest EAPI approved by the Council.
# The PMS contains specifications for all EAPIs. Eclasses will test for this
# variable if they need to use features that are not universal in all EAPIs.
EAPI=6
# inherit lists eclasses to inherit functions from. For example, an ebuild
# that needs the eautoreconf function from autotools.eclass won't work
# without the following line:
#inherit autotools
#
# eclasses tend to list descriptions of how to use their functions properly.
# take a look at /usr/portage/eclass/ for more examples.
# Short one-line description of this package.
DESCRIPTION="This is a sample skeleton ebuild file"
# Homepage, not used by Portage directly but handy for developer reference
HOMEPAGE="https://foo.example.org/"
# Point to any required sources; these will be automatically downloaded by
# Portage.
SRC_URI="ftp://foo.example.org/${P}.tar.gz"
# License of the package. This must match the name of file(s) in
# /usr/portage/licenses/. For complex license combination see the developer
# docs on gentoo.org for details.
LICENSE=""
# The SLOT variable is used to tell Portage if it's OK to keep multiple
# versions of the same package installed at the same time. For example,
# if we have a libfoo-1.2.2 and libfoo-1.3.2 (which is not compatible
# with 1.2.2), it would be optimal to instruct Portage to not remove
# libfoo-1.2.2 if we decide to upgrade to libfoo-1.3.2. To do this,
# we specify SLOT="1.2" in libfoo-1.2.2 and SLOT="1.3" in libfoo-1.3.2.
# emerge clean understands SLOTs, and will keep the most recent version
# of each SLOT and remove everything else.
# Note that normal applications should use SLOT="0" if possible, since
# there should only be exactly one version installed at a time.
# Do not use SLOT="", because the SLOT variable must not be empty.
SLOT="0"
# Using KEYWORDS, we can record masking information *inside* an ebuild
# instead of relying on an external package.mask file. Right now, you should
# set the KEYWORDS variable for every ebuild so that it contains the names of
# all the architectures with which the ebuild works. All of the official
# architectures can be found in the arch.list file which is in
# /usr/portage/profiles/. Usually you should just set this to "~amd64".
# The ~ in front of the architecture indicates that the package is new and
# should be considered unstable until testing proves its stability. So, if
# you've confirmed that your ebuild works on amd64 and ppc, you'd specify:
# KEYWORDS="~amd64 ~ppc"
# Once packages go stable, the ~ prefix is removed.
# For binary packages, use -* and then list the archs the bin package
# exists for. If the package was for an x86 binary package, then
# KEYWORDS would be set like this: KEYWORDS="-* x86"
# Do not use KEYWORDS="*"; this is not valid in an ebuild context.
KEYWORDS="~amd64"
# Comprehensive list of any and all USE flags leveraged in the ebuild,
# with some exceptions, e.g., ARCH specific flags like "amd64" or "ppc".
# Not needed if the ebuild doesn't use any USE flags.
IUSE="gnome X"
# A space delimited list of portage features to restrict. man 5 ebuild
# for details. Usually not needed.
#RESTRICT="strip"
# Build-time dependencies, such as
# ssl? ( >=dev-libs/openssl-0.9.6b )
# >=dev-lang/perl-5.6.1-r1
# It is advisable to use the >= syntax show above, to reflect what you
# had installed on your system when you tested the package. Then
# other users hopefully won't be caught without the right version of
# a dependency.
#DEPEND=""
# Run-time dependencies. Must be defined to whatever this depends on to run.
# The below is valid if the same run-time depends are required to compile.
RDEPEND="${DEPEND}"
# Source directory; the dir where the sources can be found (automatically
# unpacked) inside ${WORKDIR}. The default value for S is ${WORKDIR}/${P}
# If you don't need to change it, leave the S= line out of the ebuild
# to keep it tidy.
#S=${WORKDIR}/${P}
# The following src_configure function is implemented as default by portage, so
# you only need to call it if you need a different behaviour.
#src_configure() {
# Most open-source packages use GNU autoconf for configuration.
# The default, quickest (and preferred) way of running configure is:
#econf
#
# You could use something similar to the following lines to
# configure your package before compilation. The "|| die" portion
# at the end will stop the build process if the command fails.
# You should use this at the end of critical commands in the build
# process. (Hint: Most commands are critical, that is, the build
# process should abort if they aren't successful.)
#./configure \
# --host=${CHOST} \
# --prefix=/usr \
# --infodir=/usr/share/info \
# --mandir=/usr/share/man || die
# Note the use of --infodir and --mandir, above. This is to make
# this package FHS 2.2-compliant. For more information, see
# https://www.pathname.com/fhs/
#}
# The following src_compile function is implemented as default by portage, so
# you only need to call it, if you need different behaviour.
#src_compile() {
# emake is a script that calls the standard GNU make with parallel
# building options for speedier builds (especially on SMP systems).
# Try emake first. It might not work for some packages, because
# some makefiles have bugs related to parallelism, in these cases,
# use emake -j1 to limit make to a single process. The -j1 is a
# visual clue to others that the makefiles have bugs that have been
# worked around.
#emake
#}
# The following src_install function is implemented as default by portage, so
# you only need to call it, if you need different behaviour.
#src_install() {
# You must *personally verify* that this trick doesn't install
# anything outside of DESTDIR; do this by reading and
# understanding the install part of the Makefiles.
# This is the preferred way to install.
#emake DESTDIR="${D}" install
# When you hit a failure with emake, do not just use make. It is
# better to fix the Makefiles to allow proper parallelization.
# If you fail with that, use "emake -j1", it's still better than make.
# For Makefiles that don't make proper use of DESTDIR, setting
# prefix is often an alternative. However if you do this, then
# you also need to specify mandir and infodir, since they were
# passed to ./configure as absolute paths (overriding the prefix
# setting).
#emake \
# prefix="${D}"/usr \
# mandir="${D}"/usr/share/man \
# infodir="${D}"/usr/share/info \
# libdir="${D}"/usr/$(get_libdir) \
# install
# Again, verify the Makefiles! We don't want anything falling
# outside of ${D}.
#}